1 / 32

Changing the mirage messenger scale in mixed modulus-anomaly mediation

August 2, 2006 @ PPP 2006. Changing the mirage messenger scale in mixed modulus-anomaly mediation. Tetsutaro Higaki (Tohoku Univ.). Based on articles. PRD 73 : 046005, 2006. with Hiroyuki Abe (YITP) and Tatsuo Kobayashi (Kyoto Univ.). 1. Introduction. Superstring theory :

ailsa
Download Presentation

Changing the mirage messenger scale in mixed modulus-anomaly mediation

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. August 2, 2006 @ PPP 2006. Changing the mirage messenger scale in mixed modulus-anomaly mediation Tetsutaro Higaki (Tohoku Univ.) Based on articles • PRD 73 : 046005, 2006 with Hiroyuki Abe (YITP) and Tatsuo Kobayashi (Kyoto Univ.)

  2. 1. Introduction • Superstring theory : • Candidate of unified theory of matter and forces. • No free continuous parameters. Vacuum expectation values of moduli (super)fields can determine coupling constants and others. : gauge couplings, : Yukawa couplings, etc. : gaugino mass, : squark, slepton mass, : A-terms, etc. gravity mediation ( moduli mediation )

  3. 6D 10D 4D Examples of moduli fields (Ex) volume of cycle and ratio of volume between two cycles. 6D Volume modulus Shape modulus ⇒ 4D effective theory can have many moduli fields.

  4. 2. KKLT model S.Kachru, R.Kallosh, A.Linde and S.P.Trivedi, PRD 68 (2003) 046005 Type IIB O3/O7 system on warped Calabi-Yau (CY) threefold with Metric : : CY volume : string coupling : warp factor

  5. CY 3 ① b.g. 3-form flux Warped (KS) throat ③ 1. The minimum of warp factor 2. Potentials for dialton and shape moduli and the positions of D7/ 3-branes ① ② ・ Non-pertuebative potential for volume modulus ・ Explicit SUSY breaking and uplifting ③

  6. Moduli fields : Complex dilaton : Volume modulus : shape moduli

  7. ①-1 We will consider… Effective N=1 SUGRA + explicit SUSY breaking. ①-2 ②

  8. ①-1 : The minimum of warp factor 3-form fluxon the warped throat can determine the minimum of warp factor. S.B. Giddings, S.Kachru and J.Polchinski, PRD 66 (2002) 106006

  9. ①-2 : 3-form flux can generate Superpotential of moduli can be stabilized by flux. The minimum of potential (SUSY point) : become heavy. Fine tuning for low energy SUSY

  10. ② : SU(N) gluino condensationon the D7-brane can generate the potential for volume modulus Now, relevant potentials are

  11. ・“Gravitino mass” ・Negativecosmological constant: Now, SUSY point is the minimum of this potential AdS vacuum. ・ V.e.v.s of moduli ~ 1-loop factor

  12. vacuum energy (explicit SUSY breaking) ③ dS minimum with anti-D3( ) uplifting potential Fine tuning of the cosmological constant : Here, Position moduli (singlet scalar) are stabilized due to ISD flux.

  13. By solving the stationary condition, we can estimate the difference of properties between and .

  14. At linear order ( = 4D cut off scale ) SUSY breaking order parameters The tree level modulus mediation is comparable to the loop-induced anomaly mediation.

  15. Anomaly / modulus ratio : Mixed modulus / anomaly mediation K.Choi,K.Jeong,K.Okumura, JHEP09 (2005) 039 M.Endo,M.Yamaguchi,K.Yoshioka, PRD72:015004,2005 Gaugino mass (SM particles are living on only D7-brane)

  16. Mirage scale : Gaugino mass are unified at the mirage scale. We can have similar results for A-terms and scalar masses. ● scalar mass at ● A-term at We will find distinctive pattern of sparticle spectrum at TeV scale !

  17. When α=2 , ・ We can easily control SUSY flavor problem at TeV scale as mSUGRA in this model. ・ We have a solution to little SUSY hierarchy problem. K.Choi, K.Jeong, T.Kobayashi, K.OkumuraPLB 633 : 355, 2006 R.Kitano, Y.NomuraPhys.Lett.B631:58-67,2005

  18. Gaugino masses at TeV scale : K.Choi,K.Jeong,K.Okumura, JHEP09 (2005) 039

  19. Sfermion masses at TeV scale : K.Choi,K.Jeong,K.Okumura, JHEP09 (2005) 039

  20. 3. Moduli-mixing racetrack model Racetrack model= double gaugino condensations. Gaugino condensations on two D7s will generate A connection of two terms can make the minimum of scalar potential. (fine-tuning : a few %)

  21. Anomaly mediation is dominant.

  22. Moduli-mixing gauge coupling Heterotic (M-)theory: Type IIB O3/O7, magnetized D-branes:

  23. SU(N) gaugino condensation (GC): Moduli-mixing superpotential Moduli-mixing racetrack model : ② + uplifting potential. In the following section, we will take ①-2

  24. Example : orientifold Kachru et al.JHEP 0310:007,2003

  25. Single light modulus : Assuming that and are stabilized by flux, such that D3-branes sit on singularity.

  26. Results :

  27. No fine-tuning

  28. ● Remark : GC on D3 (or flux) and mD9 Naturally , This gauge coupling contribution would be needed to avoid hierarchy problem for α=2 when we have anomalous U(1). K.Choi and K.Jeong, hep-th/0605108

  29. 4. Summary • Modulus/anomaly ratio of SUSY breaking mediation α can take various values (α=1 in KKLT model). • rich sparticle spectrum • Destabilization due tohightemperature/overshooting problem may be avoided. ・Modulus decay → gravitino problem? ・Stabilization of exotic matter on (magnetized) brane?

More Related